Filter mounting device for vacuum cleaner

ABSTRACT

A structure for a vacuum cleaner for confirming whether a filter is mounted into a vacuum cleaner includes an interlock mechanism. The vacuum cleaner includes a cover including a discharging port for discharging air, and configured to cover the first end of a receiving space. The cover is mountable on the receiving space and an interlock mechanism is mounted on one of the cover and the receiving space. The interlock mechanism is configured to prevent the cover from being mounted on the receiving space if no filter is mounted in the receiving space. The interlock mechanism is configured to allow the cover to be mounted on the receiving space if a filter is mounted in the receiving space.

This application is a continuation of Application Ser. No. 10/012,484 filed Dec. 12, 2001, now U.S. Pat. No. 6,626,973. The entire disclosure of the prior application is considered as being part of the disclosure and is hereby incorporated by reference herein.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a filter mounting device for a vacuum cleaner, and more particularly, to a filter mounting device constructed such that only after a filter for after first collecting foreign materials to be sucked in a cyclone mode and then collecting fine dusts has been mounted within a dust collecting casing, the dust collecting casing can be mounted within a main body of the vacuum cleaner.

2. Description of the Prior Art

FIG. 1 shows the constitution of a general vacuum cleaner. As shown in the figure, the vacuum cleaner comprises a main body 1 with a suction device for sucking indoor air installed therein and a suction portion 2 into which the air is introduced from a floor of a room by suction force generated from the main body.

The main body 1 includes a lower body 5 for installing the suction device therein, and an upper body 6 which is engaged with an upper portion of the lower body 5 and in which a control portion (not shown) for controlling the vacuum cleaner is mounted. A plurality of wheels 8 are installed at a lower side of the main body 1 for allowing the main body 1 to smoothly move on the floor. A discharging portion 8 a is formed in each of the wheels 8 for discharging air, from which foreign materials are removed after the air has been introduced through the suction portion 2, from the main body 1.

Between the main body 1 and the suction portion 2, a suction hose 3 b made of flexible material, an operation portion 4 connected to an end of the suction hose 3 b for allowing a user to operate the cleaner, and an extension pipe 3 a for interconnecting the operation portion 4 and the suction portion 2 are sequentially installed.

When electricity is applied to the vacuum cleaner via a wire 9 electrically connected to the suction device contained within the main body 1, the vacuum cleaner is in a standby state. At this time, when the user adjusts suction steps by using buttons on the operation portion 4, the suction device contained within the main body generates suction force corresponding to each suction step. The suction force generated from the suction device is exerted on the suction portion 2 via the suction hose 3 b and the extension pipe 3 a. By means of the suction force exerted on the suction portion 2, the air containing foreign materials such as dusts are introduced, and the foreign materials in the introduced air are filtered out by a dust collecting unit A. The air from which the foreign materials are filtered out is discharged to the outside of the main body 1 through the discharging portion 8 a. Thus, cleaning is performed while going through the above processes.

As described above, the dust collecting unit A is a major component for filtering out the foreign materials contained within the air introduced through the suction portion 2. The dust collecting unit A is also mounted in a receiving space formed between the lower body 5 and the upper body 6.

FIG. 2 is an exploded perspective view of the dust collecting unit, illustrating in detail the dust collecting unit A which has been explained briefly with reference to FIG. 1. As shown in the figure, the dust collecting unit A includes a casing 7 with a top portion thereof opened, a cover 11 for opening and closing the top portion of the casing 7, and a filter 12 mounted below the cover 11.

The filter 12 is constructed such that a top surface 12 a formed on the top of the filter can be fitted into or detached from a coupling portion 11 a formed on a bottom surface of the cover 11. The cover 11 for mounting the filter 12 opens and closes the open top portion of the dust collecting casing 7.

A handle 7 b is constructed to be formed on a rear surface of the casing 7 so that the user can grip the dust collecting casing 7. A frame portion 7 f with an operation hole 7 g included therein is formed above the handle 7 b. An operation member 7 i is installed in an inner space of the frame portion 7 f, and an operation button 7 a of the operation member 7 i is installed to protrude through the operation hole 7 g. An elastic body 7 s is installed below the operation button 7 a′. Accordingly, the operation button 7 a is always elastically supported within the frame portion 7 f in an upward direction by the elastic body 7 s. A catching protrusion 7 c is formed on the operation member 7 i and is elastically engaged with an inlet projection 6 t of the main body 1 of the cleaner.

In order to prevent the operation member 7 i from coming off from the interior of the frame portion 7 f, a cover 7 d is fixed to an upper portion of the frame portion 7 f.

In order to mount the dust collecting unit A constructed as such into the main body 1 of the cleaner, the operation button 7 a above the handle 7 b formed at the rear surface of the casing 7 is pushed into the receiving space in a state where it is pressed down. Then, if the operation button 7 a is set free, the catching protrusion 7 c is caught into the inlet projection 6 t of the upper body 6. Thus, the dust collecting unit A is kept to be coupled to the main body 1.

Here, it can be seen that the dust collecting unit A can be mounted to the main body 1 of the cleaner regardless of whether the filter 12 has been mounted to the cover 11. That is, according to a conventional filter mounting structure, the cover 11 can be mounted on the casing 7, even though the filter 12 has not been mounted to the cover 11. Thus, even though the filter 12 has not been mounted on the cover due to the user's error, the dust collecting unit A may be inadvertently engaged with the main body of the vacuum cleaner.

The dust collecting unit A performs a primary dust collecting function in a cyclone mode that large foreign materials drop down while air introduced through an inlet 11 c is formed into a swirl flow within the casing 7, and a secondary dust collecting function that fine dusts are filtered out through the filter 12 after relatively large foreign materials have been filtered out.

As described above, if the filter 12 is not mounted to the cover, large dusts in the air introduced through the inlet 11 c drop down by their own gravity from the swirl flow and are deposited onto a separation plate 7 m. However, the fine dusts are introduced through an outlet 11 b into the main body 1 without being filtered out. Accordingly, it may causes a problem related to cleaning efficiency in that the fine dusts and the like are substantially not filtered out. Further, inner parts may get out of order since the fine dusts flow into the main body of the cleaner.

Furthermore, according to the conventional structure of the vacuum cleaner, even though the vacuum cleaner is operated in a state where the filter 12 is not mounted to the cover as described above, there are no devices for informing the user of this state.

SUMMARY OF THE INVENTION

The present invention is contemplated to solve the above problems. An object of the present invention is to provide a filter mounting device for allowing a user to confirm as to whether a filter for filtering out fine dusts is mounted to a cover of a dust collecting unit.

According to an aspect of the present invention for achieving the above object, there is provided a filter mounting device for a vacuum cleaner including a casing having an open top portion and performing a primary dust collection in a cyclone mode, a cover for covering the open top portion of the casing, and a cylindrical filter engaged below the cover for performing a secondary dust collection by collecting fine dusts after the primary dust collection, comprising: a top surface of a filter which is detachably installed to a bottom surface of the cover, which is constructed to be rotatable by a predetermined angle in a mounted state, and which includes an engagement piece formed on one side of the periphery of the top surface such that a radial extension length thereof is gradually increased, and a coupling groove formed on the outside of the engagement piece; a support portion formed on the bottom surface of the cover for pivotably supporting the top surface of the filter mounted thereto by the predetermined angle; a movable member which is installed to be movable by a predetermined distance in a state where the movable member is in close contact with the bottom surface of the cover, and includes an engagement groove for closely receiving the engagement piece, a catching projection formed on one side of the engagement groove to be caught in the coupling groove and a confirmation piece formed to protrude beyond an opening formed in the rim portion of the cover at the opposite side of the engagement groove; and an elastic means for elastically supporting the movable member so that the confirmation piece can protrude through the opening, wherein when the top surface of the filter is rotated in a state where it is engaged to the support portion, the confirmation piece moves into the cover due to pushing of the engagement piece toward an inner surface of the movable member and the pushed state can be maintained by catch of the catching projection in the coupling groove.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a general vacuum cleaner.

FIG. 2 is an exploded perspective view of a dust collecting casing, illustrating a state where a filter is mounted within a conventional vacuum cleaner.

FIG. 3 is a perspective view of a filter coupling means according to the present invention.

FIG. 4 is a perspective view of a filter mounting cover according to the present invention, as viewed from the bottom.

FIG. 5 is a partial sectional view showing a state where the cover to which a filter of a vacuum cleaner of the present invention is mounted is coupled to a dust collecting casing.

FIG. 6 is a partial sectional view showing a state where the cover to which the filter of the vacuum cleaner of the present invention is not mounted is coupled to the dust collecting casing.

DETAILED DESCRIPTION OF THE INVENTION

Hereinafter, preferred embodiments of the present invention will be explained in detail with reference to the accompanying drawings.

FIG. 3 is a perspective view of a filter 60 of the present invention, and FIG. 4 is a perspective view showing a bottom surface of a cover 40 to which the filter 60 is coupled. The filter 60 is constructed such that it can be detachably installed in a bottom surface 40 a of the cover 40. Referring to FIG. 3 showing a state where the filter 60 has been mounted to the bottom surface 40 a of the cover, an outer periphery of a top surface 60 a of the filter 60 is provided with a plurality of radially extending protrusions 62, 64 and 66. Correspondingly, a plurality of indented portions 61, 63 and 65 are formed between the adjacent protrusions 62, 64 and 66, respectively. The top surface 60 a is a plane, and thus, the protrusions 62, 64 and 66 are formed to extend radially outwardly from the plane.

An engagement piece 68 is formed at one side of the top surface 60 a. The engagement piece 68 is formed to extend radially so that an extension distance from a central portion of the top surface 60 a can be gradually increased. That is, the engagement piece 68 is constructed to extend more further outwardly from the outer periphery of the top surface 60 a. An indented coupling groove 69 is formed at one side of an outer periphery of the engagement piece 68.

Meanwhile, the cover 40 to which the filter 60 is coupled is provided with a support portion 45 fixed to a bottom surface of the cover 40 for engaging with the top surface 60 a of the filter 60, and a movable member 50 coupled around the support portion to be movable according to a mounting state of the filter 60. A discharging port 44 for discharging the filtered air is formed at the center of the cover 40, which coincides to a discharging port 67 of the filter 60.

The support portion 45 is a part to which the top surface 60 a of the filter 60 is detachably installed. The support portion 45 is fixed to the bottom surface 40 a of the cover 40 and is integrally formed with, for example, the cover 40. That is, the support portion 45 is constructed to protrude downward from the bottom surface 40 a of the cover 40, or it is formed by fixing a separate ring-shaped member to the bottom surface 40 a of the cover 40.

The support portion 45 takes the form of circle with a portion thereof disconnected. In an inner side of the support portion 45, a plurality of catching protrusions 45 a corresponding to the protrusions 62, 64 and 66 of the filter are formed to be inwardly spaced apart from the bottom surface 40 a of the cover by a predetermined gap. Thus, the protrusions 62, 64 and 66 of the top surface 60 a of the filter 60 can be inserted into the cover through spaces between the catching protrusions 45. At this time, by slightly rotating the filter, the protrusions 62, 64 and 66 of the filter are fitted between the catching protrusions 45 a and the bottom surface 40 a of the cover so that the filter can be coupled to the cover.

A rotation prevention projection 45 b, which comes in contact with the protrusions 62, 64 and 66 for preventing the filter 60 from being rotated more than a predetermined angle, is formed at one side of the support portion 45 with the catching protrusions 45 a formed therein. The rotation prevention projection 45 b may be formed to project downward from the bottom surface 40 a of the cover, or inward from the side of the support portion 45.

In addition, outward protruding ribs 46 a, 46 b are formed at opposite portions of the support portion 45 to guide the movable member 50. A support piece 43 a is formed at a predetermined portion of the support portion 45 for supporting an end of an elastic body S.

The movable member 50 is installed to surround the outside of the support portion 45, and be movable in a direction of an arrow K by a predetermined distance while being in close contact with and supported by the bottom surface 40 a of the cover.

The movable member 50 is constructed to be generally circular. Further, the movable member can be kept to be in close with the bottom surface 40 a of the cover by the ribs 46 a, 46 b of the aforementioned support portion 45.

The movable member 50 includes an engagement groove 52 which has a concave shape corresponding to that of the engagement piece 68 of the top surface 60 a of the filter so that the engagement piece 68 can be received therein, and an inward protruding catching projection 54 which is formed on one end of the engagement groove 52 to be engaged with the coupling groove 69.

An outward projecting confirmation piece 51 is formed at a portion of the movable member 50 opposite to the engagement groove 52. The confirmation piece 51 extends to protrude outward beyond a rim portion 41 formed downward from the cover 40. A catching portion 55 is formed at the inside of the confirmation portion 51, and the elastic body S is interposed between the catching portion 55 and the support piece 43 a of the support portion 45. The support piece 43 a is substantially inserted between both sides 51 a of the confirmation piece 51 below the confirmation piece 51. Thus, the support piece 43 a performs a function of guiding the confirmation piece 51 along the direction of the arrow K.

The support piece 43 a may be integrally formed with the support portion 45, and thus, is fixed to the fixed support portion 45. Therefore, the elastic body S substantially elastically urges the movable member 50 to a direction of an arrow Ka. Accordingly, the confirmation piece 51 is kept to protrude from the rim portion 41 by elastic force of the elastic body S.

The confirmation piece 51 takes the form of a straight line having a predetermined width, and its linear movement is guided by a guide 42 formed to protrude from the bottom surface 40 a of the cover. The guide 42 is formed to be in close contact with lateral and bottom surfaces of the confirmation piece 51, and thus, the confirmation piece 51 is supported by the guide 42 so that its linear reciprocating motion in the direction of the arrow K is smoothly performed.

A guide piece 43 b is installed on the bottom surface of the confirmation piece 51 to be in contact with inside portions of the sides 51 a of the confirmation piece 51, and is integrally formed with the bottom surface 40 a of the cover. Since both sides of the guide piece 43 b come in contact with the inside portions of the sides 51 a of the confirmation piece 51, the confirmation piece 51 can be supported by the guide piece 43 b when it linearly reciprocates along the direction of the arrow K as described below.

Next, the whole operation of the filter mounting device according to the present invention will be specifically explained. First, the top surface 60 a of the filter 60 is engaged to the inside of the support portion 45. At this time, the protrusions 62, 64 and 66 of the top surface 60 a are received through the spaces defined between the catching protrusions 45 a of the support portion 45. The engagement piece 68 of the top surface 60 a of the filter is received into the engagement groove 52 of the movable member 50.

Since the movable member 50 is elastically urged to the direction of the arrow Ka by the elastic body S before the filter 60 is engaged into the support portion, the confirmation piece 68 is kept to protrude beyond the rim portion 41 of the cover 40.

In a state where the top surface 60 a of the filter 60 is engaged to the support portion 45, the filter 60 is then rotated in a direction of an arrow a. As the filter 60 is rotated, the engagement piece 68 moves along an outside surface 52 a of the engagement groove 52. Thus, the movable portion 50 moves in the direction of the arrow Kb. This movement of the movable member 50 is substantially due to the shape of the engagement piece 68, and particularly, it results from the operation that the outer periphery of the engagement piece 68 pushes the outside surface 52 a of the engagement groove 52 in the direction of the arrow Kb.

When the movable member 50 moves in the direction of the arrow Kb, the linear motion of the confirmation piece 51 is guided by the guide piece 43 b and the support piece 43 a, and will be simultaneously guided by the ribs 46 a, 46 b of the support portion 45 in a state where it is in close contact with the bottom surface 40 a of the cover.

In the course of this process, if the coupling groove 69 formed in the engagement piece 68 of the top surface 60 a of the filter is caught into the catching projection 54 of the movable member 50, the movable member 50 comes to a stop at a position where it has been completely moved in the direction of the arrow Kb. In such a state, the state of the movable member 50 where the coupling groove 69 has been caught into the catching projection 54 can be maintained by the elastic force of the elastic body S. In addition, in such a state, the filter 60 cannot be further rotated since any one of the protrusions 62, 64 and 66 of the filter 60 is caught into the rotation prevention projection.

As shown in FIG. 5 illustrating this state, since the confirmation piece 51 has been completely moved in the direction of the arrow Kb, it is kept to be retracted into the rim portion 41 of the cover 40. That is, the confirmation piece 51 of the cover 50 formed on the bottom surface of the cover remains protruding beyond an opening 41 a formed by cutting out a portion of the rim portion 41 of the cover. Then, the confirmation piece 51 moves inward with respect to the rim portion 41 as the filter 60 is rotated.

Further, as shown in FIG. 5, when the movable member 50 has been completely moved inwardly, the confirmation piece 51 of the movable member 50 causes the bottom of a seating groove 49, formed on the bottom surface 40 a of the cover 40, to be opened. Thus, when a top portion 20 a of the dust collecting casing 20 is inserted into the opened seating groove 49, the dust collecting casing 20 is perfectly covered with the cover 40. Finally, the dust collecting unit A having an appropriate height capable of being coupled within a receiving space formed within the main body of the cleaner can be completely assembled.

As the movable member 50 moves in the direction of the arrow Kb, the elastic body S interposed between the support piece 43 a and a separation wall 55 is compressed. When the filter 60 is dismounted from the cover 40, the movable member 50 is urged to the direction of the arrow Ka by the restoring force of the elastic body S so that the seating groove 49 is blocked off by the confirmation piece 51. It will be easily understood to a person having an ordinary knowledge in the art.

FIG. 6. shows a case where the casing is covered with the cover 40 in a state where the filter 60 has not been mounted. That is, FIG. 6 is a sectional view illustrating that the dust collecting casing cannot be received within the main body of the cleaner if the filter 60 has not been mounted. In an initial state whether the movable member is urged to the direction of the arrow Ka by the elastic body S, the confirmation piece 51 thereof protrudes outwardly through the opening 41 a formed on the rim portion 41 of the cover 40 as shown in the figure.

Since the seating groove 49 formed on the bottom surface of the cover 40 is blocked off by the confirmation piece 51 of the movable member 50, the top portion 20 a of the dust collecting casing 20 cannot be inserted into the seating groove. Thus, the total height of the casing and the cover in a case where the cover 40 to which the filter 60 has not been mounted is engaged with the casing 20 is larger, by a height difference G, than that in a case of FIG. 5 where the dust collecting casing 20 is covered with the cover 40 to which the filter 60 has been mounted. Due to this height difference G, the dust collecting casing 20 cannot be mounted within the receiving space of the vacuum cleaner.

As described above, it is a basic technical feature or spirit of the present invention that the dust collecting casing cannot be coupled to the main body of the cleaner unless the filter for removing fine dusts from air has been correctly mounted to the cover.

According to the present invention constructed as such, the following effects can be expected.

Unless the filter has been mounted into the dust collecting unit for separating the foreign materials from the introduced air and collecting the foreign materials therein, the dust collecting unit cannot be engaged to the main body of the vacuum cleaner. Thus, it can be prevented beforehand to operate the vacuum cleaner in a state where the filter is not mounted into the dust collecting casing. Consequently, since all the problems occurring when the cleaner is used in a state where the filter is imperfectly or not mounted can be completely solved, there is an advantage in that reliability of the vacuum cleaner can be substantially further improved. Furthermore, there is additional convenience in that process of assembling the filter cannot be certainly omitted while fabricating the vacuum cleaner.

It will be understood to the skilled in the art that various changes and modifications may be made to the present invention without departing from the spirit and scope of the present invention. It is apparent that the scope of the present invention should be construed only by the appended claims. 

1. A filter mounting mechanism for a vacuum cleaner, comprising: a receiving space in the body of a vacuum cleaner, wherein the receiving space includes sidewalls and an open first end, and wherein the receiving space is configured to receive a filter element; a cover configured to cover the first end of the receiving space, wherein the cover is mountable on the receiving space; and an interlock mechanism mounted on one of the cover and the receiving space, wherein the interlock mechanism is configured to prevent the cover from being mounted on the receiving space if no filter is mounted in the receiving space, wherein the interlock mechanism is configured to allow the cover to be mounted on the receiving space if a filter is mounted in the receiving space, and wherein the interlock mechanism is coupled to and interacts with a filter mounting portion that is configured to receive and secure the filter.
 2. The filter mounting mechanism of claim 1, wherein the cover comprises: a planer surface that conforms to the shape of the first end of the receiving space, and a side edge that extends from a periphery of the planar surface at an angle relative to the planar surface, and wherein the side edge is configured to abut the sidewalls of the receiving space when the cover is mounted on the receiving space.
 3. The filter mounting mechanism of claim 2, wherein the interlock mechanism is configured such that a confirmation piece of the interlock mechanism is located at a blocking position when no filter is mounted in the receiving space, and wherein the presence of the confirmation piece at the blocking position prevents the side edge of the cover from abutting the sidewalls of the receiving space.
 4. The filter mounting mechanism of claim 1, wherein the interlock mechanism include a confirmation piece that is movable between a blocking position and a mounting position, wherein when a filter is mounted in the receiving space, the confirmation piece is located at the mounting position, which allows the cover to be mounted on the receiving space, and wherein when no filter is mounted in the receiving space, the confirmation piece is located at the blocking position, which prevents the cover from being mounted on the receiving space.
 5. The filter mounting mechanism of claim 4, wherein the interlock mechanism includes an elastic member that urges the confirmation piece toward the blocking position.
 6. The filter mounting mechanism of claim 1, wherein the interlock mechanism is mounted on the cover.
 7. The filter mounting mechanism of claim 6, wherein the cover also includes the filter mounting portion that is configured to allow a filter to be mounted to the cover.
 8. The filter mounting mechanism of claim 7, wherein the interlock mechanism includes a confirmation piece that is movable between a blocking position and a mounting position, wherein when a filter is mounted on the cover, the confirmation piece is located at the mounting position, which allows the cover to be mounted on the receiving space, and wherein when no filter is mounted on the cover, the confirmation piece is located at the blocking position, which prevents the cover from being mounted on the receiving space.
 9. The filter mounting mechanism of claim 8, wherein the interlock mechanism further comprises an elastic member that urges the confirmation piece towards the blocking position, and wherein the act of mounting a filter on the cover causes the confirmation piece to move to the mounting position against the action of the elastic member.
 10. The filter mounting mechanism of claim 9, wherein the cover comprises: a planer surface that conforms to the shape of the first end of the receiving space, and a side edge that extends from a periphery of the planar surface at an angle relative to the planar surface, and wherein the side edge is configured to abut the sidewalls of the receiving space when the cover is mounted on the receiving space.
 11. The filter mounting mechanism of claim 10, wherein when the confirmation piece of the interlock mechanism is located at the blocking position, the confirmation piece prevents the side edge of the cover from abutting the sidewalls of the receiving space.
 12. The filter mounting mechanism of claim 1, wherein the cover includes the filter mounting portion, and wherein the filter mounting portion allows a filter to be rotatively mounted to the cover.
 13. The filter mechanism of claim 12, wherein the interlock mechanism includes a confirmation piece that is located at a blocking position when no filter is mounted on the cover, and wherein the act of rotatively mounting a filter on the filter mount causes the confirmation piece to move to a mounting position that allows the cover to be mounted on the receiving space.
 14. The filter mechanism of claim 13, wherein the interlock mechanism further comprises an elastic member that urges the confirmation piece towards the blocking position.
 15. The filter mechanism of claim 13, wherein the interlock mechanism of claim 13 includes an engagement portion configured to interact with a radially extending protrusion on a filter, and wherein the engagement portion is configured such that when a filter is rotatively mounted on the cover, the radially extending protrusion on the filter causes a movement of the interlock mechanism which causes the confirmation piece to be located at the mounting position.
 16. The filter mounting mechanism of claim 12, wherein the filter mounting portion on the cover includes a rotation prevention projection that is configured to prevent a filter from being rotated onto the filter mounting portion past a prescribed point.
 17. A vacuum cleaner, comprising: a body having both an air suction port for receiving dust-laden air under pressure and an air exhaust port for discharging the air from the body to the atmosphere after filtering the air; a suction unit provided within said body and generating a suction force for sucking the dust-laden air into the body; a dust collecting case for cyclonically collecting impurities from the dust-laden air introduced into said body through the air suction port, thus removing them from said air, said dust collecting case being detachably installed within said body; a filter member mountable in said dust collecting case and communicating with said air suction port and said air exhaust port; and an interlock mechanism configured to control an installation of said dust collecting case into said body, wherein the interlock mechanism prevents the installation of the dust collecting case into the body if said filter member is not mounted in the dust collecting case.
 18. A vacuum cleaner, comprising: a body; an operable cyclone dust collection casing detachably installed into said body; an air inlet port formed on a sidewall of said casing such that the air inlet port introduces dust-laden air under pressure into the casing while forming a cyclone of the air within said casing; an air exhaust port provided at a top end of said casing for discharging the air from the casing to the atmosphere; a dust collecting filter mountable into said casing for filtering the air before the air is discharged from the casing to the atmosphere through the air exhaust port; and an interlock mechanism in said dust collection casing, wherein said interlock mechanism is configured to prevent said dust collection casing from being installed into said body if said dust collecting filter is not mounted in said dust collection casing.
 19. A vacuum cleaner, comprising: a body including an air suction port for receiving dust-laden air through a suction hose connected at an end of the body and an air exhaust port for discharging the air from the body after filtering the air; a suction unit installed within the body for providing a driving force for causing air to be introduced into and discharged from the body; a cyclone dust collector detachably installed from the outside of the body directly into the body; fastening means for mounting and fastening the dust collector to the body; a filter member mountable in said dust collector and communicating with said air suction port and said air exhaust port; and an interlock mechanism configured to confirm whether said filter member is mounted in said dust collector.
 20. A vacuum cleaner, comprising: a body including an air suction port for receiving dust-laden air through a suction hose connected at an end of the body and an air exhaust port for discharging the air from the body after filtering the air; a suction unit installed at a portion within the body for providing a driving force for causing air to be introduced into and discharged from the body; a cyclone dust collector detachably installed from the outside of the body directly into the body; a filter member mountable in said dust collector and communicating with said air suction port and said air exhaust port; and an interlock mechanism including a confirmation piece which associates with said filter and confirms whether said filter member is mounted in said dust collector when the dust collector is mounted on the body. 